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Antioxidative capacity of C 60 (buckminsterfullerene) and newly synthesized fulleropyrrolidine derivatives encapsulated in liposomes
Author(s) -
Lens Marko,
Medenica Ljiljana,
Citernesi Ugo
Publication year - 2008
Publication title -
biotechnology and applied biochemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.468
H-Index - 70
eISSN - 1470-8744
pISSN - 0885-4513
DOI - 10.1042/ba20080007
Subject(s) - liposome , chemistry , fullerene , antioxidant , solubility , lipid peroxidation , superoxide , radical , buckminsterfullerene , hydroxyl radical , combinatorial chemistry , organic chemistry , biochemistry , enzyme
C 60 (buckminsterfullerene or fullerene C 60 ) has been recognized an efficient free‐radical scavenger. Owing to its high antioxidative capacity, C 60 and its derivatives have a great potential for application in biological systems where prevention of oxidative cell damage is desirable. However, poor solubility of native C 60 in water represents a major drawback for its use in biological systems. In order to increase the efficiency of delivery of fullerenes to target tissues it is of great interest to enhance their water solubility by developing hydrophilic organoderivatives of C 60 with retained antioxidative properties, and/or by encapsulating fullerenes in biocompatible liposomes. In the present study, using EPR spin‐trapping and spin‐labelling techniques, we investigated the antioxidative capacity of C 60 and newly synthesized fulleropyrrolidine derivatives Q‐C 60 [ N ‐methyl‐(2‐quinolyl)fulleropyrrolidine 60 ] and I‐C 60 [ N ‐methyl‐(2‐indolyl)fulleropyrrolidine 60 ] encapsulated in multilamellar phospholipid liposomes. The capacity for removal of • OH (hydroxyl radical) and O 2 •− (superoxide radical) and for the prevention of lipid peroxidation should be stressed as the most relevant biological antioxidative parameters. When these parameters for novel organofullerenes were compared with the the performance of C 60 , Q‐C 60 and I‐C 60 showed similar, or even better, antioxidative characteristics. However, further research is required to establish the toxicity of these derivatives and their antioxidant efficacy in vivo .

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